Abstract
Phylogenetic inference typically invokes nocturnality as ancestral in primates; however, some recent studies posit that diurnality is. Here, through adaptive evolutionary analyses of phototransduction genes by using a variety of approaches (restricted branch/branch-site models and unrestricted branch-site-based models (BS-REL, BUSTED and RELAX)), our results consistently showed that ancestral primates were subjected to enhanced positive selection for bright-light vision and relatively weak selection for dim-light vision. These results suggest that ancestral primates were mainly diurnal with some crepuscularity and support diurnality as plesiomorphic from Euarchontoglires. Our analyses show relaxed selection on motion detection in ancestral primates, suggesting that ancestral primates decreased their emphasis on mobile prey (e.g., insects). However, within primates, the results show that ancestral Haplorrhini were likely nocturnal, suggesting that evolution of the retinal fovea occurred within ancestral primates rather than within haplorrhines as was previously hypothesized. Our findings offer a reassessment of the visual adaptation of ancestral primates. The evolution of the retinal fovea, trichromatic vision and orbital convergence in ancestral primates may have helped them to efficiently discriminate, target, and obtain edible fruits and/or leaves from a green foliage background instead of relying on mobile insect prey.
Highlights
Primates are vision-orientated and are distinguished from other mammals by their relatively enhanced visual system, including unique trichromatic colour vision[1] and relatively high degrees of orbital convergence[2,3,4,5]
We analysed the adaptive evolution of the phototransduction genes to infer the evolution of the diel activity patterns and motion detection ability of primates using restricted branch/branch-site models implemented in PAML24 and unrestricted branch-site-based models (BS-REL, branch-site unrestricted statistical test for episodic diversification (BUSTED) and RELAX) available at Datamonkey webserver[25]
Our study showed no evidence of a enhanced ability for motion detection in ancestral primates compared with their closest relatives; rather, the results suggest relaxed selection for motion detection in ancestral primates
Summary
Received: 26 April 2017 Accepted: 4 September 2017 Published: xx xx xxxx and Morphology. Wu et al (2016) demonstrated that the genes contributing to the photoresponse recovery have undergone strong positive selection in falcons, which are aerial hunters with powerful eyesight for detecting motion[23] Their findings indicated that some vision genes involved in the phototransduction pathway can be used for both reconstructing diel activity and analysing motion-detection ability in vertebrates. These genes can be used to explore early primate vision and examine the visual predation hypothesis, the role of the nocturnal predation abilities of ancestral primates in the pursuit of mobile insects[6,12,13]. Our reconstruction of the diel activity patterns reveals a more complicated evolutionary pathway of the diel activity patterns within primates than previously thought, and it provides insights into the origins of the highly specialized visual adaptations in primates
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